DE1148326B - Machine for the manufacture of filaments, especially for electric light bulbs - Google Patents

Description

The invention relates to a machine for producing incandescent filaments, in particular for electrical ones Incandescent lamps with one winding the filaments on a core wire moving in the longitudinal direction Winding head, which after winding each coil to produce a straight or approximately straight intermediate piece for attaching the coils to power supply wires is stopped, wherein a coupling, preferably one, between the machine drive and the rotating winding head Brake magnetic clutch, is provided, which is controlled as a function of the revolutions of the winding head will. A machine of this type has become known in which the control of the magnetic coupling takes place with the help of cams, are operated by the corresponding switches. To now within certain limits the number of turns of the filament to be wound and the length of the intermediate piece To vary between two coils, the cam disks consist of two mutually adjustable Share. Before every change in the number of turns of the filament to be wound or the length of the intermediate piece, the corresponding cam disks must be readjusted. This setting the cam disks is difficult in the known machine and is also time consuming. Furthermore, the setting can only be made within a narrowly limited range.

The invention is based on the object while avoiding the disadvantages of the known machine to create a machine of the type described above for the production of incandescent filaments, with which in a simple, Time-saving and economical way of filaments of any number of turns and any length 3 of the intermediate piece can be wound. This object is achieved according to the invention by that two adjustable counters are provided to control the clutch, one of which the Revolutions of the winding head and the other the revolutions of the drive-side coupling part counts while the end winding is at a standstill. The machine according to the invention therefore has the great advantage that with her only the two counters need to be adjusted to both the number of turns of the incandescent filaments to be wound and the length of the intermediate piece between two coils to change. The two counters are designed so that they can also be used during operation of the Machine can be adjusted. In the above-mentioned known machine, in contrast to the machine according to the invention in front of each single machine for producing incandescent filaments, especially for electric light bulbs

Applicant:

Gustav Brückner KG, machine factory,
Coburg-Neuses

Rudolf Brückner, Coburg,
has been named as the inventor

position of the cam disks this machine will be shut down.

There are coil winding machines are known, which are provided with a counter that the number of Turns of the coils to be wound counts and the machine stops after a predetermined number of turns.

To in the machine according to the invention in a simple Assign the revolutions of the end winding and the coupling part on the drive side to the two To transmit counters assigned to them, the end winding and the coupling part on the drive side are to be transmitted each connected to a disc, the revolutions of which are transferred to the counters. The transfer of the revolutions of the disks on the assigned counters can according to a further Feature of the invention take place photoelectrically. For this purpose, the two discs have an in Circumferential direction in the length adjustable slot, in its area on one side of the discs a light source and on the opposite side a photoelectric cell is arranged whose pulses can be transferred to the corresponding counters. To easily adjust the length of the To enable the slot, each disk consists of two identical, with running in the direction of rotation Slotted disks that can be rotated against each other to change the effective slit are detectable. After setting the effective

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Slot are the two associated disks in on which a drive roller 31 is also attached, which locked their position to each other. via a corresponding belt drive with an

There is already a machine for cutting up the drive motor can be coupled. On the shaft 30 is with straight intermediate parts continuously gewik- also a screw 3Γ attached, which with a press helical wire in as an incandescent body for electrical 5 worm wheel 32 works together. That with the Single worm wheel 32 rigidly connected gear 33 drives incandescent lamps and discharge vessels Wendern became known, in which the winding drum 2 Cutting device in front of a photoelectric cell.

is seen to an automatic working of this As can be seen in particular from FIGS. 2 and 3,

knew machine to reach. io have the two discs 9 and 10 contactors 39 and

According to a further development, the two counters 40 are open. These two disks 9 and 10 can so

works connected to each other, so that they are rotated against each other at standstill, that an effective of one counter, the other free for counting - slot 41 is created, which is used for scanning the disks 9, is given. As a result, an automatic continuous process is used by means of the photoelectric method.

nuanced working with the machine is achieved. 15 The two disks 16 and 17 are in the same

An exemplary embodiment of the invention is constructed in the manner as the disks 9 and 10 according to the

Drawings shown. It shows Fig. 2 and 3. They also have slots 39 and 40,

Fig. 1 schematically shows the machine according to the invention, so that when the two disks are rotated against one another

Fig. 2 two mutually adjustable discs on the other also creates an effective slot 41, which

according to Fig. 1, ²⁰ for photoelectric scanning of the disks 16,17

Fig. 3 is a section along the line III-III which serves.

Fig. 2, To carry out the photoelectric scanning process

Fig. 4 shows the 1 winding head of FIG. Enlarged proceedings are on one side of the discs light scale, sources 42 and on the other side of the discs Fig. 5 the winding head of FIG. 4 in another ^a 5 photocells 43 and 43 'provided. The lamps 42, working position, are connected in parallel and are connected to the rectifier 45 via the line FIG. 6 with two coils 44 wound on a core wire. The photo with spacer, cell 43 is connected via a line 46 to the counter Fig. 7, a single helix according to Fig. 6 without core 47, which wire the revolutions of the disks 9 and 3 ° and 10 and thus the revolutions of the drive-Fig . 8 a double helix. side part 12 of the brake magnetic clutch 13 counts. The machine shown schematically in FIG. 1. The photocell 43 ′ is in a conductive connection via the line 48 with which has an unwinding drum 1 and a winding counter 49, which the drum 2 has. The core wire 3 is unwound from the turns of the disks 16 and 17 and thus the winding drum 1 and counts on the winding rotations of the winding head. From the drum 2 on the network wound. It first runs over a Hegenden rectifier 45, a switch-on clamping device 4, which is pivotably mounted at 5, relay 50 and a self-holding device 51 which has counting and two pressure rollers 6 and 7. The core plants 47 and 49 are supplied with electricity. From the switch wire 3 then runs through the central bore 8 of two relays 50, a line 52 leads to the switch 53, the disks 9 and 10, which are arranged on a shaft 11 4o controls the magnetic coupling 13. From this switch are. The drive-side part 12 53 is rigidly connected to the shaft 11, lines 54 and 55 lead to the brushes 56 of a brake magnetic clutch 13. The and 57 of the drive-side part 12 of the magnetic output-side part of the magnetic coupling 13 is indicated by 14 coupling 13. The line 55 is denoted by the double. This output-side part 14 is connected via line 58 with the rectifier 45, a shaft 15 with the two disks 16 and 17 so 45. The counter 49 has a hundred digit H, one connected that when the output-side tens digit Z and a units digit E move During part 14, the two disks 16 and 17 are rotated, the counter 47 has a tens digit Z and a single earth. The winding head sits on the disk 17. This point E owns. Via the line 59 both have a coil 18 which is connected to tungsten wire 19, counters 47 and 49 in such a way that when the turners are made from, it is provided. 5 ° standstill of one counter, the other counter. The tungsten wire 19 of the coil 18 is released for counting via a.

Guide roller 20 guided to the winding nozzle 21, from It should be noted that in the circuit

whose bore the core wire 3 after passing through most of the lines according to FIG. 1 double lines Hollow shafts 11, 15, the coupling 13, the disks 16, which are made up of a forward and a return line and the bobbin 18 are brought out and the 55 stand up. For a better overview these are winding drum 2 is fed. Shown directly on the double lines as single lines. Winding nozzle 21 is located below the core The mode of action of the Ma-

wire 3 a pin 22 rotatably mounted in tips, the machine is as follows:

which is located directly under the core wire 3 over the

The counters 47 and 49 are the counters 47 and 49 according to the machine according to the machine, which extends over the entire circumference of the pin 22

23 owns. Set at a certain distance from this so that the turner to be wound one Pin 22 are located below and above the core - have a certain number of turns and the length wire 3 parallel to the pin 22 arranged rollers of the intermediate between two coils

and 25th piece is fixed. This setting can be done with the help of the shaft 11 is in a bearing 26 and the 65 of rotary knobs 60 to 64. In the case of the in Fig. 1

Shaft 15 guided in a bearing 27. Machine according to the invention shown schematically on shaft 11 is a gear 28 rigidly attached, the two counters 47 and 49 are in a gear with the help of the 29 intervenes. The gear 29 sits on a shaft 30, knobs 60 to 64 set so that the wik-

Kelling coils have 154 turns and the intermediate piece located between two coils has a length which corresponds to 32 times the pitch of a turn of the coils to be wound.

After this setting has been made, the machine is started so that on the one hand the winding drum 2 moves the core wire 3 in the direction of arrow 65 and the clutch 13 excited by closing the switch 53 drives the disks 16, 17 and thus the winding head. At the same time, the photocell 43 'is also switched on, so that the revolutions of the disks 16, 17 are transmitted to the counter 49. The photocell 43 and with it the counter 47 are switched off. After the 154 turns set on the counter 49 have been wound, the counter 49 and with it the photocell 43 'are automatically switched off. At the same time, the switch 53 moves into the switch-off position shown in FIG. 1, whereby the clutch 13 is switched off and the output-side part 14 is stopped by the brake of the brake magnetic clutch 13 and thus also the disks 16, 17 and the winding head. After the counter 49 has come to a standstill, the counter 47 is released via the line 59, whereby the photocell 43 also becomes active at the same time, so that the revolutions of the disks 9 and 10 can be transmitted to the counter 47 by photoelectric means.

The core wire 3 is moved forward in accordance with the pitch of the helical turns. This movement of the core wire 3 takes place during the entire operation of the machine, so also after a coil is wound and the winding head is stopped in the manner described. Is the end winding still, then the core wire 3 with the wound coil 19 'becomes one of the length of the intermediate piece corresponding piece moved on. After this movement, the position shown in FIG. 4 is reached. If the winding head is now released for rotation again, then according to FIG. 5 the winding head side is laid down End of the intermediate piece 19 "into the groove 23, where it is briefly held so that a new coil can be started to wind. This process is repeated for so long until the machine is stopped.

In a further work step, after the machine has been shut down, the core wire 3 and thus the Intermediate piece 19 ″ cut along the line 66 according to FIG. 6. The core wire located in the helix 19 ' can either be pulled out or etched out, so that the helix 19 'according to FIG arises.

In Fig. 8 a double helix is shown, which comes about in that the one shown in Fig. 6, core wire 3 provided with single coils 19 'is wound onto a further core wire.

In the machine according to the invention, both the number of turns of the coils to be wound and the length of the straight or approximately straight intermediate piece change by adjusting the counters 49 and 47 accordingly. This is a great advantage of the machine according to the invention. In the embodiment shown in Fig. 1 can be with the Set the counter 49 to a maximum of 999 turns for the coils to be wound, while the length of the intermediate piece can be a maximum of 99 times the pitch of a helix turn. Naturally the counters can be expanded by adding more decades.

Since the counters have a certain inertia when counting, two can be rotated against each other Disks 9,10 and 16, 17 are provided in order to be able to change the effective contactor in serner length. Depending on the speed of the winding head, the slot is lengthened or shortened.

In the machine shown in Fig. 1, the counters count only whole revolutions. By making two diametrically opposite slots in the disks 9, 10 and 16, 17, half turns or turns can also be counted. Twice the number of turns must then be set in the counters.

Claims (7)

PATENT CLAIMS: 1. Machine for the production of incandescent filaments, especially for electric light bulbs, with a winding head that winds the filaments on a core wire moving in the longitudinal direction, which is stopped after each filament has been wound to produce a straight or approximately straight intermediate piece for attaching the filaments to power supply wires , with a coupling, preferably a brake magnetic clutch, being provided between the machine drive and the rotating winding head, which is controlled as a function of the revolutions of the winding head, characterized in that two adjustable counters (49, 47) are used to control the coupling (13) are provided, of which one (49) counts the revolutions of the winding head (18 to 21) and the other (47) the revolutions of the drive-side coupling part (12) while the winding head (18 to 21) is at a standstill. 2. Machine according to claim 1, characterized in that both counters (49, 47) also during of the operation of the machine are adjustable. 3. Machine according to one or both of the preceding claims, characterized in that that the winding head (18 to 21) and the drive-side coupling part (12) each with a disc (16, 17; 9, 10), the revolutions of which are transmitted to the counters (49, 47). 4. Machine according to one or more of the preceding claims, characterized in that that the transmission of the revolutions of the disks (9, 10; 16, 17) to the associated Counters (47, 49) are made photoelectrically. 5. Machine according to one or more of the preceding claims, characterized in that that the disks (9, 10; 16, 17) are adjustable in length in the direction of rotation Have slot (41), in the area of which on one side of the panes a light source (42) and on the opposite side a photoelectric cell (43, 43 ') is arranged, the pulses of which can be transferred to the corresponding counters (47, 49). 6. Machine according to one or more of the preceding claims, characterized in that that the discs consist of two identical slots (39, 40) running in the direction of rotation provided disks (9, 10; 16, 17) exist, which are used to change the effective slot (41) are rotatable and lockable against each other. 7. Machine according to one or more of the preceding claims, characterized in that that the two counters (47, 49) are connected to each other, so that at standstill of one counter, the other is released for counting. Considered publications: German Patent Nos. 645 383, 663 546, 738507, 852714, 905 645;
French Patent No. 926,342; U.S. Patent No. 2,846,156. 1 sheet of drawings © 309 579/124 4.63